Cyclo(-Asp-Gly)
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Cyclo(-Asp-Gly)

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Category
Others
Catalog number
BAT-004965
CAS number
52661-97-9
Molecular Formula
C6H8N2O4
Molecular Weight
172.14
Cyclo(-Asp-Gly)
IUPAC Name
2-[(2S)-3,6-dioxopiperazin-2-yl]acetic acid
Synonyms
Cyclo(L-Asp-L-Gly)
Appearance
White solid
Purity
≥ 98%
Density
1.391 g/cm3
Boiling Point
713.4±45.0 °C(Predicted)
Storage
Store at -20°C
InChI
InChI=1S/C6H8N2O4/c9-4-2-7-6(12)3(8-4)1-5(10)11/h3H,1-2H2,(H,7,12)(H,8,9)(H,10,11)/t3-/m0/s1
InChI Key
STTIAONCINEOLF-VKHMYHEASA-N
Canonical SMILES
C1C(=O)NC(C(=O)N1)CC(=O)O
1. Effect of conformation on the conversion of cyclo-(1,7)-Gly-Arg-Gly-Asp-Ser-Pro-Asp-Gly-OH to its cyclic imide degradation product
S J Bogdanowich-Knipp, S D Jois, T J Siahaan J Pept Res. 1999 Jul;54(1):43-53. doi: 10.1034/j.1399-3011.1999.00091.x.
The objective of this study was to explain the increased propensity for the conversion of cyclo-(1,7)-Gly-Arg-Gly-Asp-Ser-Pro-Asp-Gly-OH (1), a vitronectin-selective inhibitor, to its cyclic imide counterpart cyclo-(1,7)-Gly-Arg-Gly-Asu-Ser-Pro-Asp-Gly-OH (2). Therefore, we present the conformational analysis of peptides 1 and 2 by NMR and molecular dynamic simulations (MD). Several different NMR experiments, including COSY, COSY-Relay, HOHAHA, NOESY, ROESY, DQF-COSY and HMQC, were used to: (a) identify each proton in the peptides; (b) determine the sequential assignments; (c) determine the cis-trans isomerization of X-Pro peptide bond; and (d) measure the NH-HCalpha coupling constants. NOE- or ROE-constraints were used in the MD simulations and energy minimizations to determine the preferred conformations of cyclic peptides 1 and 2. Both cyclic peptides 1 and 2 have a stable solution conformation; MD simulations suggest that cyclic peptide 1 has a distorted type I beta-turn at Arg2-Gly3-Asp4-Ser5 and cyclic peptide 2 has a pseudo-type I beta-turn at Ser5-Pro6-Asp7-Gly1. A shift in position of the type I beta-turn at Arg2-Gly3-Asp4-Ser5 in peptide 1 to Ser5-Pro6-Asp7-Gly1 in peptide 2 occurs upon formation of the cyclic imide at the Asp4 residue. Although the secondary structure of cyclic peptide 1 is not conducive to succinimide formation, the reaction proceeds via neighbouring group catalysis by the Ser5 side chain. This mechanism is also supported by the intramolecular hydrogen bond network between the hydroxyl side chain and the backbone nitrogen of Ser5. Based on these results, the stability of Asp-containing peptides cannot be predicted by conformational analysis alone; the influence of anchimeric assistance by surrounding residues must also be considered.
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